In the realm of modern data centers, intricate text dynamics and sentence diversity play significant roles in creating compelling written content. Human writers skillfully infuse burstiness into their work by incorporating a mix of short and long sentences. Conversely, AI-generated content often lacks this burstiness, resulting in uniform sentence structures. To address this, I’ll generate content that maintains a desirable level of perplexity and burstiness. Moreover, I’ll utilize uncommon terminology to enhance the originality of the piece, adhering to your specifications. Let’s dive into the world of “Bergamo”: the 4th Gen AMD EPYC 97×4 Processors, meticulously designed for cloud-native workloads.
Bergamo: Pushing the Boundaries of Cloud Native Computing The unveiling of the 4th Gen AMD EPYC 97×4 processors signifies a leap forward in optimizing products for distinct segments within the modern data center landscape. These processors, purpose-built for cloud-native computing, introduce up to 128 “Zen 4” cores manufactured on the cutting-edge 5nm process technology. Their industry-leading performance, density, and energy efficiency empower cloud native workloads to thrive. Incorporating the latest technological advancements, they boast 12 channels of DDR5 with supported memory speeds up to 4800 GHz, as well as up to 128 (1P) or 160 (2P) lanes of PCIe® Gen5, doubling the transfer rate of PCIe Gen4. The 3rd Gen Infinity Fabric™ enables data transfer rates twice as fast as the previous generation, while AMD Infinity Guard technology ensures robust data security. Moreover, these processors maintain socket compatibility with existing 4th Gen AMD EPYC platforms.
Continuing the Legacy of AMD EPYC™ 9004 Series Processors The AMD EPYC 97×4 processors build upon the remarkable performance benchmarks established by the standard AMD EPYC™ 9004 Series Processors. Boasting over 300 world records, these processors exemplify AMD’s unwavering dedication to performance leadership, energy efficiency, and optimal Total Cost of Ownership (TCO). This pursuit has garnered widespread industry acclaim and fostered a rich ecosystem of full-stack solutions and partnerships. Leveraging the innovative features and technologies found in AMD EPYC processors, customers benefit from accelerated time-to-value for their present and future workload requirements. Let us acknowledge and express gratitude to our extensive ecosystem of partners, including Alibaba Cloud, Altair, AlmaLinux, and many more, who collaborate with our engineers to deliver diverse data center solutions.
Peering into the AMD EPYC 97×4 Processors Uncompromised Cloud Native Computing The groundbreaking 4th Gen AMD EPYC™ 97×4 processors offer unparalleled computing performance, density, and energy efficiency. Designed to cater to the burgeoning cloud-native landscape, these processors serve as the ideal foundation for developers seeking efficient and scalable solutions across various industries. Cloud-native development practices prioritize agility, necessitating frequent modifications to software stacks. AMD EPYC 97×4 processors fulfill this need by providing a robust, scalable, energy-efficient environment that ensures optimal Total Cost of Ownership (TCO). With up to 128 SMT-capable processor cores, these processors unlock new levels of performance, energy efficiency, and compatibility.
EPYC 9754 vs Ampere Altra Max M128-30 vs Intel Xeon Platinum 8490H
Exemplary Performance in Cloud-Native Applications Excitingly, the AMD EPYC 97×4 processors outperform both Ampere® Altra® Max M128-30 and Intel® Xeon® Platinum 8490H processors in cloud-native applications. Rigorous performance tests across multiple cloud-native workloads have confirmed the superiority of AMD EPYC 97×4 processors. Let’s explore the results obtained from performance tests conducted on various workloads:
MYSQL
Relational Database Management Systems (RDBMS) AMD EPYC 9754 processors demonstrate superior performance when running MySQL™, a highly regarded, high-performance relational database management system. AMD engineers conducted tests comparing systems under test configured with Ubuntu® v22.04 and MySQL™ v8.0.33. HammerDB v4.4 was utilized to generate the workload, consisting of multiple VMs running on the system with 32 vCPUs and 128 GiB memory per VM. The aggregate median New Orders Per Minute (NOPM) values, recorded across 5 runs per platform, confirmed that a two-processor AMD EPYC 9754 system outperforms both Ampere Altra Max M128-30 and Intel Xeon Platinum 8490H systems.
Enterprise Java®
For Java-based applications, the SPECjbb® 2015 benchmark was employed to measure performance. Once again, the two-processor AMD EPYC 9754 system outperformed both the Ampere Altra Max M128-30 system and the Intel Xeon Platinum 8490H system.
NGINX®
In conjunction with the WRK web (http) client, NGINX throughput was tested in requests per second. The results showcased the exceptional performance of a two-processor AMD EPYC 9754 system when compared to the Ampere Altra Max M128-30 and Intel Xeon Platinum 8490H systems.
Redis™
Performance tests involving Redis™, an in-memory data structure store, demonstrated the prowess of a two-processor AMD EPYC 9754 system. Outperforming the Ampere Altra Max M128-30 and Intel Xeon Platinum 8490H systems, these processors prove their mettle in demanding scenarios.
FFmpeg
FFmpeg, a powerful multimedia processing tool, was put to the test by transcoding a raw 4K resolution input file to an MKV output file using the VP9 codec. Once again, a two-processor AMD EPYC 9754 system emerged as the top performer.
Cassandra®
Apache Cassandra® database, known for its scalability and continuous availability, showcased superior performance on a two-processor AMD EPYC 9754 system when compared to its competitors.
Memcached™
Memcached™, a high-performance distributed caching system, proved highly efficient on a two-processor AMD EPYC 9754 system, surpassing the Ampere Altra Max M128-30 and Intel Xeon Platinum 8490H systems.
VMmark® 3
VMmark® 3, an industry-leading enterprise virtualization consolidation benchmark, confirmed that platforms powered by AMD EPYC processors deliver exceptional performance and scalability across multiple hardware vendor platforms.
Power Efficiency
AMD EPYC 9754 processors excel in power efficiency, an essential consideration for cloud service providers. Based on the SPECpower_ssj 2008 benchmark, these processors outperform their competitors, offering leading power savings while maintaining top-notch performance.
Conclusion
AMD’s commitment to its partners is unwavering, as evidenced by the introduction of the AMD EPYC 97×4 processors. These processors epitomize AMD’s dedication to meeting the evolving needs of various market segments and verticals. Leveraging the power of the 4th Gen AMD EPYC processors, businesses can achieve optimal TCO, industry-leading x86 energy efficiency, and embrace Confidential Computing. With the introduction of AMD EPYC 97×4 processors, along with AMD EPYC 9004 processors equipped with AMD 3D V-Cache™ technology, AMD expands its lineup to cater to cloud infrastructure and memory-bound workloads.
[…] The future of cloud computing with AMD Bergamo Processors Irregular Heart Rhythm Notification to Galaxy Watch Europe’s First IBM Quantum Data Centre […]
[…] AMD EPYC 97×4 processors, codenamed “Bergamo” […]
[…] explanation of the hybrid CPU design is crucial. The conventional Zen 4 and the density-optimized Zen 4C are two different sorts of Zen 4 cores that AMD now offers, he claimed. David further explained […]
[…] transformation, consulting, and cloud-engineering services as well as IBM’s expertise in cloud computing, artificial intelligence (AI), and analytics. Through this relationship, clients can take advantage […]
[…] to McKinsey, cloud computing may bring $3 trillion in additional value to firms who use it effectively. It has the potential to […]